Despite the introduction of new treatment options and techniques, treatment of four-part fractures is still controversial. 3 Conservative measures are not appropriate for displaced fractures, because they lead to painful mal-union and, unstable or stiff shoulder in most cases. In elderly patients with selleck compound osteoporotic bones and a sedentary life style, the results of the conservative or surgical treatment are closely similar to each other and therefore the latter should not be routinely indicated. 4 In younger active patients, with good quality bone stock, surgical treatment is preferred, thus permitting early rehabilitation measures and leading to better functional results. 5 Minimal osteosynthesis techniques have been developed for the four-part fractures in order to avoid the excessive soft tissue damage of extensive surgical exposures and to avoid compromise of the blood supply to the entire bone.
6 Satisfactory results have been reported with the use of such techniques, particularly concerning pain relief and function. Avascular necrosis of the head dome fragment is a frequent complication, regardless of the type of treatment and fixation technique, and most authors agree that it is quite often an asymptomatic condition, not requiring any further surgical measure. 1 , 6 – 8 Percutaneous pinning, bone sutures, tension band wiring, intramedullary nailing, fragment specific screw fixation, and various types of plates (T-shaped, angled and blocked plates) are among the proposed fixation techniques for such complex fractures, but there is no consistent evidence about the best alternative for active patients.
1 , 5 Actually, the mechanical resistance of different fixation techniques has been studied, but the results obtained in different studies do not authorize the general and unrestricted use of such techniques in clinical situations, considering the different methodology used in each study. 5 , 9 , 10 Therefore, it is our opinion that the minimal fixation for the four-part fractures of the proximal end of the humerus is still a controversial issue regarding the mechanical behavior of different types of fixation, and that deserves further investigation. In the present study, a new biomechanical model involving an aluminum scapula and synthetic humeri was developed to allow closer-to-real biomechanical essays.
The synthetic humeri were fixed onto the aluminum scapulae by means of leather straps corresponding to the supraespinatus, infraespinatus and subscapularis tendons and lower capsula, and four different techniques for minimal fixation of the four-part fractures of the proximal end of the synthetic humeri have Dacomitinib been used. MATERIAL AND METHODS The first step of the investigation was to design a close to real model of the shoulder joint. A plastic human scapula and humeri (Nacional Ossos(r), Ja��, Brazil*), currently used for osteosynthesis drills, were used.